采用大含量氟利昂气体,用宇宙线测量该探测器的探测效率,输出电荷,时间分辨。
The efficiency, output charge and time resolution were measured by cosmic muons when the detector was operated with F134a rich mixture in avalanche mode.
这就为研究激光的工作人员出了一个难题:如果能量输出有两种形式,他们怎样运用电荷守恒和能量守恒定律呢?
This posed a conundrum for researchers working with the laser: How were they to apply the laws of conservation of charge and conservation of energy with two forms of energy output?
基尔霍夫电流定律,由古斯塔夫·基尔霍夫1845年证明,规定在某一波节的电荷输入与电荷输出相等。
Kirchhoff's current law, described by Gustav Kirchhoff in 1845, states charge input at a node is equal to the charge output.
紧接着采用等效电量关系法详细地推导了电荷泵的稳态输出电压表达式。
Finally, employing the equivalent electricity quantity approach, the steady state output voltage expression of charge pump is derived.
这个误差电压被用作是控制电荷泵导通电阻,进而获得了一个稳定的输出电压。
This error voltage serves as is controls the electric charge pump breakover resistance (to call that it controls resistance pressure), then obtained a stable output voltage.
列读出级采用新型主从两级放大列读出结构,其中主放大器完成电荷到电压的转换,从放大器驱动输出总线来满足一定的读出速度。
In the design of column readout stage, master and slaver structure has been adapted, where master amplifier converts charge to voltage, and slave amplifier works with standby mode to drive output bus.
AAT3177是高输出电流,高效率,低噪音,低姿态电荷泵DC/ DC转换器。
The AAT3177 is a high output current, high efficiency, low noise, low profile Charge Pump DC/DC converter.
采用差分输入和差分输出方案,设计了一种新型的全差分电荷泵。
A new novel fully-differential charge pump was designed in this paper, differential input and differential output was used in this circuit.
该电路基于电荷转换原理,并采用差分结构产生输出信号。
It is based on the charge transfer principle and USES a differential structure to generate the output signal.
本文就利用栅极电荷特性的考虑,介绍了一些计算用于开关igbt的驱动器输出性能的方法。
This article takes gate charge characteristics into account and then introduces some methods for calculating output performance of drivers used for switching IGBTs.
列读出级采用新型主从两级放大列读出结构,其中主放大器完成电荷到电压的转换,从放大器驱动输出总线来满足一定的读出速度。
In the design of column readout stage, master and slaver structure has been adapted, where master amplifier converts charge to voltage, and slave amplifier works wit.
在传统的电荷泵电路中,输出电压受阈值电压限制,不得不用高阶电路来实现,致使电路效率低下、面积大。
In traditional charge pump circuits, the output voltage is limited with the threshold voltage, and has to use high stairs to realize. It leads to low power efficiency and large layout area.
在读取操作期间,该读取晶体管被激活以产生指示储存在该浮置栅极节点中的电荷的输出信号。
During a read operation, the read transistor is activated to produce an output signal indicative of the charge stored in the floating gate node.
高压产生系统主要采用电荷泵电路来产生高压,电压调节系统则主要采用低压差电压调节器来调节输出电压。
High voltage generate system mainly use charge pumps to generate high voltage. Voltage regulator system usually USES LDO to regulate output voltage.
随着电池输出容量的增加,欧姆电阻和电荷传递电阻增大。
The ohmic resistance and the charge transfer resistance of the battery are increased with the increasing of delivered capacity.
在电荷转换部分的灵敏电容的切换和输出放大级的增益切换电路的实现上提出了程控的方案;
Has proposed a programme-controlled scheme in the sensitivity throw-over of charge convert and gain throw-over of output amplifier;
在传统的CMOS电荷泵电路中,电荷泵输出的电压受MOS管的阈值电压限制,所以当要求电荷泵的输出电压较高时,则不得不连很多阶来达到要求。
In conventional CMOS charge pump circuits, the pumping high voltage is limited by MOS threshold voltage, so that it can not use less cascade stages to pull up a high voltage which we want to generate.
输出部蓄积能量线感应区域内产生的电荷,输出与蓄积电荷量相当的电流信号或电压信号。
The output part stores the charge occurring in the energy line sensing area and outputs a current or voltage signal equivalent to the amount of the stored charge.
压力场测试中所采用的传感器是一种以压电晶体做敏感元件的压力传感器,它可以将压力讯号直接转换成电荷输出,其输出量与被测量压力成正比。
The sensor used in the testing is made of piezoelectricity crystal and it can directly transform the pressure signal into electricity signal. Its output is in proportion to the measured pressure.
在水平定时控制下,每个电荷包被带到芯片的输出放大器。
Each packet is brought to the output amplifier of the chip under control of horizontal timing.
在水平定时控制下,每个电荷包被带到芯片的输出放大器。
Each packet is brought to the output amplifier of the chip under control of horizontal timing.
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